Mineralogical and Geochemical Fingerprinting of Potentially Toxic Elements (PTEs) in asbestos and non-asbestos tremolite: Implications for Human Health”

Abstract

[EN]This paper aims to comprehensively investigate the content of potentially toxic elements (PTEs) in 11 tremolite samples to better understanding of their potential effects on human health. Accurate characterization of trace element concentrations in asbestos mineral fibers is crucial to elucidate their potential synergistic contribution to the mechanisms of asbestos‐induced carcinogenesis and related pathologies, particularly in light of the documented involvement of elements such as Ni and Cr in the etiology of lung cancer. Samples were collected from diverse geological settings: San Severino Lucano and Iacolinei (Basilicata region, South Italy), Val Malenco (Lombardy region, North Italy), Praborna and Verrayes (Aosta Valley, North Italy), Monastero di Lanzo, Bracchiello, Caprie (Piedmont region, North Italy), Reventino (Calabria region, South Italy), Campolungo (Ticino Alps, Swiss), and Fowler (St. Lawrence Co., New York, USA). PTEs concentrations were determined using Inductively Coupled Plasma Optical Emission Spectrometry. The distribution of PTEs among different tremolite types was compared and discussed to provide a comprehensive overview of the data set.Tremolite asbestos samples showed variable concentrations of trace elements, with Mn (691.5 ppm) and Ni (474.2 ppm) being the most abundant. Samples from Monastero di Lanzo exhibited the highest total PTEs content (4,709 ppm). Statistical analysesrevealed a consistent geochemical contrast: asbestos tremolite is systematically enriched in Mn and Ni, leading to higher overall PTEs levels, while prismatic tremolite is defined by very low Mn–Ni contents. The observed elemental variability reflects distinct geological settings that influence PTEs incorporation and potentially affect toxicity